Multi-functional holster for electronic device

ABSTRACT

A multi-purpose holster attaches to surfaces/objects, to retain an electronic device in a desirable position for hands-free use as a camera or video recorder. An elastic first strap extends transversely from a main body of the holster, wraps around the electronic device and fastens to itself to capture the device in portrait orientation. An elastic second strap extends parallel to the main body and around the electronic device, and fastens to the rear of the main body or to a portion of the first strap to capture the device in landscape orientation. The holster may include suction cup, loop and/or other suspension mechanisms to suspend the holster from the vertical surface of other object, and/or the first and second straps may be used to strap the holster to the surface/object.

This application claims benefit of Provisional Applications Ser. No. 61/587,395, filed Jan. 17, 2012; Ser. No. 61/598,630, filed Feb. 14, 2012; and Ser. No. 61/609, 710, filed Mar. 12, 2012, all entitled “Double Layer Self-Photo Strap” and all the disclosures of which are incorporated by this reference. This application also claims benefit of Provisional Applications Ser. No. 61/587,441, filed Jan. 17, 2012, and Ser. No. 61/598,658, filed Feb. 14, 2012, both entitled “Triple Layer Self-Photo Strap” and the disclosures of which are both incorporated by this reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to holsters for electronic devices that have camera and/or video-recording capabilities. More particularly, the invention relates to an apparatus holding a portable electronic device, such as a cellular phone, smart phone, camera, or other digital media device, whereby the device may be secured to a vertical support surface or other object, for example, for hands-free use.

2. Related Art

There are many electronic device holster designs in the prior art. Still there is an absence of holster designs that are operable with nearly all photo-capable cellular phone designs. To the applicant's knowledge, there has not yet been disclosed an elastic-based holster, with integrated suction cup and hook and loop fasteners, that can hold photo-capable cellular phones in multiple orientations and secure the phone by multiple attachment options to various support surfaces or objects.

With the development of information communication technology, cellular phones have become essential tools modern life. More recently, the cellular phone is provided with various functions, such as a camera, in addition to a function of calling or answering the telephone simply. In addition, various smart phones have software applications (known as “apps”) that allow a user to take photos using self-timers, voice activation, or motion sensors. These shutter functions can be initiated and/or a shutter timer started, for example, by a preset timer, sound such as a clapping noise or voice command, or motion detection or lack thereof. Thus, the cellular phone is recognized as advanced picture-taking and video-recording equipment, going beyond the functionality of a traditional camera used solely for picture taking purposes.

With the advancement of cell phone technology, there is a need for a universal, convenient, and inexpensive holster apparatus that is operable with most present day smart phones and other cellular phones, allowing for hands-free pictures/video. This invention addresses that need.

SUMMARY

The present invention comprises a multi-purpose holster apparatus for attachment of an electronic device to vertical surfaces or other objects, for example, to retain the electronic device in a desirable position during use as a camera or video recorder. Certain embodiments are adapted to hold the electronic device in both vertical and horizontal orientations, for example, by use of straps that encircle the electronic device and fasten to various locations on the holster, whereby the straps elasticity tighten around the device to hold the device in the holster. In certain embodiments, a strap comprising hook-and-loop fastener material may connect to cooperating material at a single location or nearly-adjacent locations on the holster, to accomplish different tasks, for example, to capture the electronic device or to capture a supporting object for suspending of the holster from that member while the holster captures the electronic device by means of a different strap. In certain embodiments, a strap comprising hook-and-loop fastener material may connect to different locations on the holster to accomplish different tasks, for example, to be in a position that encircles the electronic device to hold it horizontally, or in another position that encircles a horizontal member to suspend the holster from that horizontal member while the holster captures the electronic device by means of a different strap. In certain embodiments, a strap comprising hook-and-loop fastener material may connect to cooperating material at different locations on the holster, according to the user's preference, to accomplish the same or similar tasks. In certain embodiments, the holster apparatus comprises multiple attachment members adapted to secure the holster device to various surfaces or objects, for example, a suction cup for smooth vertical surfaces, a loop for being hooked to various objects, or a strap(s) for extending around horizontal members or vertical members such as fence members, bars, or tree branches.

In preferred embodiments, the holster comprises a main body with a longitudinal axis, a transverse strap that is sized in length so that it may encircle the main body and the electronic device and fasten to itself by hook-and-loop fastening, to hold the electronic device so that its length is parallel to the longitudinal axis of the main body, that is, “held vertically”. In preferred embodiments, an additional strap may extend longitudinally from at or near a central region of the main body, this longitudinal strap being sized in length so that it may encircle the electronic device and fasten to a front portion of the holster (for example to a portion of the transverse strap at the front of the holster), and/or to the rear of the main body, by hook-and-loop fastening. The longitudinal strap thus may encircle the electronic device and hold it so that the length of the device is perpendicular to the main body, that is, “held horizontally”. The adaptation of the preferred longitudinal strap to fasten to the rear of the main body allows the longitudinal strap, in addition to or instead of encircling the device, allows the longitudinal strap to extend around a horizontal member, such as a fence railing, horizontal bar, or tree branch, to hang the holster and device from said horizontal member.

The electronic devices for which the holster is intended include a camera feature (photo and/or video), and a timer function or alternative shutter option that can be set prior to suspending the apparatus. For example, after a timer is set, the electronic device is inserted into the elastic-strap-based holster (leaving the camera lens exposed), and the holster is then suspended to allow the user to walk away to pose for the photograph, effectively taking a self-photo/video or allowing the user to join group photos/videos. This may be extremely useful for traveler(s) who want classic tourist-photos or group photos without asking a stranger to take the photos. This also may be extremely useful for outdoor enthusiasts who want photos of themselves and their companions in a natural environment wherein there are no such “strangers” to hold the camera.

As a result of the flexible design of the holster, the picture/video-taker may utilize the holster in a variety of settings and locations. Further, the inventor believes that the holster's small, compact design allows for convenient transportation and storage of the apparatus. The intention of the design is that the flexible holster and its flexible and elastic strap(s) will conform/fit most smart phone devices, or similar electronic devices with camera features.

It will further be seen that the inventor has provided herein an apparatus, for securing an electronic device to vertical surfaces and objects, which may be produced and manufactured from pre-existing parts/materials, but in a unique combination that has not previously been taught. The advantageous quality and unusual results obtained from such a combination has not previously been recognized or achieved.

While the following description details preferred embodiments, it will be understood that such detail need not be strictly adhered to, but that additional changes and modifications may suggest themselves to one skilled in the art, all falling within the scope of the invention as defined by the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The following description of the holster can be understood in light of the Figures, in which:

FIG. 1 is a front, isometric view of one embodiment of the holster having a double-layer main body and two elastic retention strap assemblies in their fully-outstretched positions.

FIG. 2 is a rear, isometric view of the embodiment of FIG. 1, with two elastic retention strap assemblies still in their fully-outstretched positions.

FIG. 3 is an isometric view of the embodiment depicted in FIG. 1, wherein the transverse elastic retention strap assembly is wrapped around an embodiment of an electronic device in the portrait orientation, and the suction cup fastened to a smooth vertical flat surface so that the electronic device is generally parallel to the surface, as one way of suspending the device.

FIG. 4 is a right side view of the embodiment depicted in FIG. 3.

FIG. 5 is an isometric view of the holster embodiment of FIG. 1, wherein the transverse strap assembly is holding the electronic device in a portrait orientation, and the holster is rotated 180 degrees with the longitudinal elastic retention strap assembly extending around a horizontal dowel/bar and fastened to the back of the main body, as an alternative way of suspending the device.

FIG. 6 is a right side view of the embodiment depicted in FIG. 5.

FIG. 7 is a left side view of the embodiment of FIG. 5, wherein the loop at one end of the holster is hung on a hook, as another way of suspending the device.

FIG. 8 is a front, isometric view of the embodiment depicted in FIG. 7.

FIG. 9 is a front, isometric view of the embodiment of FIG. 1, wherein the longitudinal elastic retention strap assembly is wrapped around an electronic device in the landscape orientation and fastened to the rear of the main body, wherein the suction cup is removably attached to a smooth vertical flat surface, with device and camera lens generally parallel to the surface, as another way of suspending the device.

FIG. 10 is a rear isometric of the embodiment depicted in FIG. 9.

FIG. 11 is a front isometric view of the embodiment of FIG. 1, wherein the longitudinal retention strap assembly secures an electronic device in landscape orientation, wherein the transverse retention strap assembly encircles a vertical object (railing, tree, or pole), as another way of suspending the device.

FIG. 12 is a rear isometric of the embodiment depicted in FIG. 11.

DETAILED DESCRIPTION

Referring to the figures, there is shown one, but not the only, embodiment of the invented holster for suspending an electronic device preferably containing both a camera feature and a timer or other shutter feature. The holster is shown in the figures by itself (FIGS. 1 and 2), holding an electronic device in portrait configuration (FIGS. 3-8) and in landscape position (FIGS. 9-12), hung by suction cup (3, 4, 9, 10), on a horizontal bar/object (5, 6), hung from a hook (FIGS. 7, 8), and strapped to a vertical pole/object (11, 12).

The preferred holster allows for self-picture-taking, giving the same effect as someone else taking the picture. The preferred embodiment effectively allows a user to place/affix his/her electronic device via the holster to various vertical surfaces to allow for easier self-picture taking, or videos. Primary problems with much of the prior art includes: large size, expensive manufacturing process, bulkiness, potential for breakage due to plastic-based components, inconvenience in transportation, limited use to one surface type, etc. The preferred holster solves these issues in that is it small, lightweight, has limited potential for breakage, is easily transported (in a pocket, purse, backpack, etc), can be used on a variety of vertical surfaces (smooth or non-smooth), and is very inexpensive to manufacture.

By their nature, camera devices (especially portable electronic devices with camera functions) are meant to be utilized by an individual taking pictures of scenery, or pictures of other persons. Often, however, the user would like to attach the portable camera device to a specific location (usually to an object such as a tripod) while using an automatic timer and have it remain there until the picture taking process is completed. The problem arises when an individual desires to take a picture of himself/herself in a particular setting. This situation often occurs with portable devices, such as wireless or cellular telephones with a camera, where a user attaches the device to a tripod, or sets the phone on a flat/stable surface or other surface during the picture taking process is complete. Often, finding an ideal surface to place a cellular phone at the proper height is challenging, especially in outdoor settings. Such traditional methods to not typically allow for dual camera orientation picture capture (portrait & landscape), as they most often only allow for a single orientation of the device. In addition, transporting a tripod of any size for such uses can be challenging, creating issues for convenience and storage of such apparatuses. The preferred holster effectively reduces the size of the camera-phone-holding apparatus, provides a unique dual orientation capability (portrait & landscape), as well as allowing for more flexibility of picture taking locations.

Household devices for affixing cameras or cell phone devices have been envisioned, but have not been constructed to allow for use on a variety of vertical surfaces or structures. Typically, tripods are constructed for and function to merely provide a stable object to affix a camera device to allow for placement on a flat surface such as a floor or table top, or level topography such as the ground, roadway, or rock surface. The inventor believes that the major problems with traditional apparatus arise in transporting a tripod on one's person, in a vehicle, in a suitcase, or in a backpack etc. The secondary problem is associated with limited use for vertical surfaces both outdoors and indoors. While a tripod can effectively be used, the convenience of such an apparatus is not conducive to everyday use.

Referring specifically to the holster of the drawings (which will be detailed with call-out reference numbers later in this document), the holster comprises a main body that may be formed/sewn from two layers of flexible strap material (for example, 2 inch strap), hence making a double-layered main body. The double layer construction reduces the flexibility of the main body somewhat, compared to the individual pieces/portions of strap material, making the main body only generally flexible, and sufficiently firm so that the main body does not twist to any significant extent. The weight of the electronic device captured in the holster further tends to keep the main body straight and vertical. This firm main body keeps the main body and, hence, the electronic device pointing in the desired and predictable direction for proper pointing at the subject of the photo/video, rather than twisting out of the desired vertical plane. Preferably, the main body is not elastic or at least substantially in-elastic. The main body is elongated and has a longitudinal axis; the main body may be described as a vertical main body as it will typically be used in an orientation that places the longitudinal axis vertically. Extending from the main body are two sewn-on elastic straps (for example, 1½ inch strap). One of the elastic straps extends generally transverse from the main body, and hence may typically be called the “horizontal strap”. The other elastic strap extends generally from the mid region of the main body towards the lower end of the apparatus, generally parallel to the longitudinal axis of the main body, and hence may also be called the “vertical strap”. The transverse and longitudinal straps are preferably flexible, so that they may effectively curve/wrap around the electronic device and/or the main body; some inflexibility in along short lengths may be acceptable, for example, as hook-and-loop patches can reduce flexibility in their regions. Preferably, the two elastic straps have quick-connect and quick-disconnect fasteners on them so they may be quickly fastened around the electronic device. Hook-and-loop fasteners are the preferred quick-connect/disconnect fasteners, and patches about 1.5″-2″ inches long are secured to one or both sides of the leading ends (distal ends), with cooperating patches of hook-and-loop fastener attached on the main body and/or on the strap(s) itself/themselves. The hook-and-loop fastener may be sewn into place or adhesively-attached, for example.

In preferred embodiments, non-elastic or substantially non-elastic strap material may be folded and sewn, to create the dual-layer main body, with cording captured between the layers of material, preferably at folds at each end of the main body, to create the end-loop for each end of the main body. The transverse and longitudinal retention straps are preferably elastic or substantially elastic and are sewn onto the main body, one extending transversely (horizontally) from the back of the upper half of the main body, and the other preferably extending downward (vertically) parallel to the longitudinal axis of the main body, from a location on the front of the main body and just below the transverse strap. The transverse retention strap preferably contains hook or loop fastening material sewn onto one side (the front side) of the distal end of the strap. The longitudinal retention strap preferably contains hook and loop fastening material sewn onto both sides of the distal end of the strap.

The corresponding/cooperating hook/loop fastener for the transverse retention strap is preferably sewn onto the rear side of the transverse retention strap itself, near the location where it is attached to the main body (for example, ¾-1 inches from the main body). This length of the transverse retention strap is chosen to allow it to wrap securely around the electronic device (preferably a smart phone) placed against the front of the main body, around the back of the main body, and against to the front of the holster so that the hook/loop fastener on the distal end of the transverse strap attached to the fastener on the back of the transverse strap (now facing forward by means of the strap wrapping around the main body).

The corresponding/cooperating hook/loop fastener for the vertical retention strap is sewn onto the back lower half of main body, which allows the vertical retention strap to curve down and backward around the lower end of the main body and to fasten at its distal end to the rear hook/loop fastener. This curving from the front mid-region of the main body to the rear of the main body creates an elastic-retention-loop for receiving the electronic device. The preferred vertical retention strap is sized and placed so that this front-to-back configuration creates an elastic retention-loop well-adapted to hold a conventional smart phone electronic device in a landscape orientation (horizontally, with length of the smart phone transverse to the longitudinal axis of the main body). Noting that the longitudinal strap has hook-and-loop material on both sides of its distal end, the longitudinal strap alternatively may curve forward and upward to attach at the flap extending down from the transverse strap. This latter configuration of the longitudinal strap may be merely a way to store/dock the strap when not in use (see FIG. 1) or it may be used to form a pocket in which the electronic device may be placed for landscape orientation (not shown in the Figures).

The dual strap design is a unique feature of the apparatus as it allows for two picture taking orientations (landscape and portrait). The transverse strap is typically used for a portrait orientation, and the longitudinal strap is typically used for landscape orientation.

The holster additionally contains two elastic cording loops that are each captured inside a respective fold at each end of the main body, or otherwise secured to the main body, with one of the cording loops being at each end of the main body. Preferably, these cording loops are flexible/bendable and will flex/bend and/or slide along a hook to allow the holster to hang vertically plumb. The loop at the bottom end of the main body remains open so that the holster may be flipped 180 degrees and hooked over an object by means of that “open loop”. The other loop, at the top end of the holster, serves as an attachment location for a suction cup with side pilot hole. The suction cup is preferably 1.5″ to 2″ inches in diameter, with a side pilot hole that is preferably ⅛″ to ¼″ in diameter. The suction cup may be easily attached by folding the upper cording loop upon itself and extending the folded end of the cording through the side pilot hole. The cording is pulled through as needed, creating an open loop where the fold once was, then looped under and around the suction cup and pulled tightly around the base of the cup, just below the side pilot hole. This preferred method of attachment allows the loop to be sewn in place first, and then the suction cup to be securely attached thereafter.

The apparatus provides four attachment options: suction cup, open loop end for a hook, the longitudinal elastic strap that can be secured over horizontal objects 1 to 3 inches in diameter, and the transverse strap that can be secured to vertical objects (for example, 1 to 3 inches in diameter). Thus, these options provide substantial convenience compared to traditional holstering methods.

Hereinafter, the specific design elements of this invention will be described with reference to the accompanying drawings and reference numbers. In the following detailed description, reference numerals and letters are used to identify structural elements, portion of elements, surfaces, objects, or features which may further be explained by the entire written specification. Unless otherwise indicated, the drawings are intended to be read together with the specification and are considered to be a portion of the entire written description of the invention. The matters defined in the description, such as the detailed construction and elements, are details provided to assist those of ordinary skill in the art in a comprehensive understanding of the invention which is defined by the claims herein.

FIG. 1 is a front, isometric view of the holster 1. The holster main body 2 is formed from 2″ strap, folded to form the ends of the main body, connected along the length of the main body by conventional sewing methods, thus, creating a double-layer main body. From the main body 2 extend two 1.5″ elastic straps, transverse strap 4 and longitudinal strap 6, which are sewn onto the main body. The design incorporates a fabric material such as a 2″ nylon strap (larger or smaller) is preferably utilized as the main body 2, while the smaller 1.5″ elastic straps 4, 6 are preferably used to secure the electronic device. The straps, which also may be called “looping members”, have at least some flexibility and preferably elasticity, at least to a degree so that the electronic device is effectively retained for use and secured from falling out of the holster. In certain embodiments, the straps may range from very flexible (such as cloth, webbing, bands, rubber, or less preferably cording) to only somewhat flexible as required for various electronic devices. Preferably, straps are elastic in that they may be stretched and, due to their resiliency, are biased/urged to their original, shorter length, and, hence, they tend to grip tightly around whatever (electronic device, pole, bar, etc) causes them to be stretched. The upper, transverse elastic strap 4 is sewn to the rear of the main body 2, extends horizontally outwards to the left in FIG. 1. This strap 4 comprises multiple features, including a 1.5″ patch of hook fastener 8 which is sewn into place at the distal/leading end 9 of the strap 4, with fastener material 8 facing forward in FIG. 1. Additionally, the strap 4 contains a 3″ length of flexible and optionally elastic strap 12 sewn into place approximately 1″ from the main body 2. This strap 12 comprises an upper patch of loop fastener 13 to which fastener 8 may connect (see FIGS. 3 and 4) and a flap 12′ hanging down about 1.5 inches from strap 4, in a direction parallel to the longitudinal axis of the main body 2, comprises loop fastener 15.

Strap 6 is sewn at its top end to main body 2, and extends vertically downwards from the middle section of the main body 2. Strap 6 comprises a patch of hook fastener 10, 10′ sewn onto the front and rear flat sides of the distal end of the strap 6. Both free ends of a 4″ piece of cording material are inserted into the interior of the top end of the double layer main body 2 (typically inside the top end fold) and substantially sewn into place, creating an open loop 16 of cording material. This cording open loop 16 can be folded upon itself at the top of the loop, and extended through a side pilot hole within the knob of a suction cup 14. The suction cup 14 faced to the rear.

FIG. 2 is a rear, isometric view of the embodiment depicted in FIG. 1 with the retention straps (4 & 6) outstretched horizontally and vertically, now making the rear side of the main body 2 and straps 4, 6, 12 visible. Another patch of 1.5″ wide loop material 20 approximately 2″-3″ long is sewn into place vertically downwards from the middle section of the main body 2 at the rear. Both ends of a 3″ piece of cording material are inserted into the interior of the bottom end of the double layer main body 2 and substantially sewn into place, creating an open loop 18 of cording material. The width of the resulting loop 18 is slightly greater than the width of the distal (leading) end of strap 6, thereby allowing passage of the distal end of the strap 6, extended from the front of the main body 2, through the cording loop 18, to be fastened at the rear of the main body via hook patch 10′ connecting to loop material 20.

FIG. 3 is an isometric view of the embodiment depicted in FIG. 1, wherein the transverse elastic retention strap 4 is wrapped around an electronic device 26 in the portrait position. To capture the device 26, strap 4 is wrapped/stretched at least once (at least 360 degrees) and more typically about 1.5 times (about 540 degrees) around the main body, to place the distal end at the front of the holster, so that hook patch 8 secures to the now-front-facing loop patch 13. The alignment of the main body while suspended is preferably vertical, thereby allowing the camera lens 28 to capture the intended field of view while taking pictures or recording video. In FIG. 3, distal end patch 10 of longitudinal retention strap 6 is secured to the loop patch 15 of the flap 12′ of strap 12, to extend around (but not necessarily tightly against) the bottom of the device 26, in effect, forming a space 29 in which the bottom of the device 26 resides. This provides additional security to retain the device 26 within the holster, for example, by catching the device 26 if it is not tightly held by strap 4. Note that, in FIGS. 3 and 4, strap 4 does not necessarily appear to be tight against the device 26, but in normal use, it would be tight against the device 26 due to being stretched tight around the device.

Note that the suction cup 14 is secured by suction to a smooth vertical surface 30, such as a smooth wall, a window, or mirror. The cup 14 contains a side pilot hole 24 receiving a portion of the cording loop 16 by the preferred method (described above) or other methods.

FIG. 4 is a right side view of the embodiment depicted in FIG. 3 illustrating the suction cup attached to a smooth vertical surface 30. This side view demonstrates the attachment method for the cup with cording 16 extending through the side pilot hole of the suction cup and looped around the knob of the cup itself to securely remain in place. Here one may see to best advantage that the main body 2 may be a double layer of strap that is substantially sewn together at multiple locations, whereby the dual layer design allows the upper piece of cording 16 and lower piece of cording 18 to be inserted between the two layers (in end folds) and sewn into place. The two elastic straps 4 & 6 are bendable (or rotatable) and terminate at points where cooperating patches of hook/loop fasteners are sewn into place. For the portrait orientation shown in FIGS. 3 and 4, transverse strap 4 stretches to achieve the desired state of tension that serves to firmly affix the electronic device, thereby creating a holstering effect. The width of patches 8 and 13 allow for some differences in thickness and width of the electronic devices. As mentioned above, the longitudinal elastic retention strap 6 is depicted in an engaged position below the electronic device, secured via patches of hook and loop fastener, to provide additional support, or fail-safe retention, for said device to ensure it is retained within the holster.

FIG. 5 is an isometric view of the holster 1, wherein the entire holster 1 is rotated 180 degrees end to end. The rotation places the shorter, longitudinal retention strap 6 nearer the top of the apparatus, allowing strap 6 to be wrapped around a horizontal object 32, such as railing, a tree branch, wire, fencing, or some other object/structure. With the vertical strap 6 thus-engaged, by patch 10′ connecting to patch 20, to hang the holster 1 on the object 32, the transverse strap 4 is still available for holstering an electronic device. The transverse elastic strap 4 is outstretched, the device 26 is placed atop the main body 2, and the strap 4 is wrapped at least 360 degrees, and more typically about 500-580 degrees, around said device, allowing the patch 9 of hook fastener on the leading end of the strap 8 to be attached to cooperating patch 13. In FIGS. 5 and 6, the flap 12′ of strap 12 is rotated/folded back 180 degrees to be tucked behind a portion of strap 4, thereby ensuring it does not interfere with the camera lens. This method is a unique holstering method by which to attach an electronic device to an object for use in the portrait position, although it is only one of the optional ways of suspending the device using the holster 1.

FIG. 6 is a right side view of the holster 1 as it is being used in FIG. 5. The sewn-on patch 10′ is shown to be engaged with the corresponding patch 20 at the rear of the main body 2. The side of the electronic device 26 is depicted here, with buttons located above the strap 4 as preferred.

Due to the elastic nature of the two straps 4 and 6, the holster 1 can therefore secure a wide spectrum of electronic devices with varying sizes, camera locations, and designs. It is the specific intention of the holster to allow for operation with numerous existing models of devices, as well as future models.

FIG. 7 is a left side view of the holster 1, wherein the holster 1 is rotated 180 degrees end-to-end from the depiction in FIG. 1, with the elastic retention strap assembly 4 holstering an electronic device 26 in the portrait position and suspended by the optional cording loop 18 from a hooking mechanism 34 that is understood to be integral with or secured to a wall, tree, or other object, resulting in another way of suspending the device. Note that strap 6 is out of the way of the device 26 and its lens, extending through the loop 18 and secured to the rear patch 20. Note that the sole means of retaining the device 26 in the holster 1, in this configuration and use, is elastic strap 4 wrapping tightly around and/or being elastically stretched, to tightly grip/hold the device 26. The strap 4 extends from its leftmost extremity of attachment (40 in FIG. 2) to the rear of the main body 2, to wrap about 1.5 times around the main body 2 and the device 26 (about 540 degrees) to attach to its own patch 13 now at the front of the holster. Because of the width of patches 8 and 13, there is leeway in how far the distal edge 42 (FIG. 2) of the strap 4 reaches on patch 13, to accommodate different sizes and thicknesses of devices 26. In preferred embodiments, elastic strap 4 is adapted so that it is secured to the entire approximately 2-inch width of the main body, and so that strap 4 has a length from extremity of attachment 40 to the distal edge 42 is about 7 inches (for example, 6.5-7.5 inches, but preferably 6.8-7.2 inches).

FIG. 8 is a front, isometric view of the holster in the orientation and use of FIG. 7, depicting the optional use of loop 18 suspended from a hooking mechanism 34, with electronic device securely retained within the horizontal elastic strap 4.

FIG. 9 is a front, isometric view of the holster 1 in use with the longitudinal elastic retention strap 6 assembly wrapped around an electronic device 26 in the landscape orientation, wherein the suction cup 14 is removably attached to a smooth vertical flat surface 30, with device and camera lens 28 generally parallel to the surface 30, as one way of suspending the device. FIG. 10 is a rear isometric view of holster in the orientation and use depicted in FIG. 9. Note that the sole means of retaining the device 26 in the holster 1, in this configuration and use, is elastic strap 6 wrapping tightly around and/or being elastically stretched (about 250-360 degrees), to tightly grip/hold the device 26 against the front of the holster main body. From the lowermost extremity of attachment 44 (FIG. 1) of strap 6 to the front of the main body 2, the strap 6 wraps/stretches toward the bottom end of the main body 2 and around to the back of the main body 2 to connect to patch 20. Alternatively, strap 6 could wrap/stretch toward the bottom end of the main body 2 and around both the loop 18 and the bottom end of the main body 2 to connect to patch 20; in such modes, the loop 18 would be pulled into and retained in space 49 (FIG. 10) between the strap 6 and the main body 2 rather than loosely hanging down below strap 6. From extremity of attachment 44 to the distal edge 46, the strap 6 is about 4.5 inches (for example, 4.0-5.0 inches, but preferably 4.3-4.7 inches). There is leeway in where patch 10′ attaches to path 20, due to the lengths of the patches 10′, 20, to accommodate various sizes and thicknesses of devices 26. Note that, in FIGS. 9 and 10, the flap 12′ is tucked up behind strap 4 (behind patch 13 next to the front surface of the main body 2), to keep it out of the way as it is not used in this orientation and use of the holster 1.

Alternatively, the device 26 may be captured in the holster in landscape orientation by an alternative use of the strap 6. This alternative use of strap 6 comprises strap 6 being positioned as in FIGS. 3 and 4, with patch 10 of its distal end being fastened to patch 15 of depending flap 12′. See FIGS. 3 and 4. The device 26, in this alternative use, is received in the space 29 with the device's length in a horizontal orientation (perpendicular to the longitudinal axis of the main body 2). From the extremity of attachment 44, the strap 6 extends down, forward, and upward around the device 26, so that it is stretched tightly around the device 26 to capture the device 26 in the space 29 to capture the device.

FIG. 11 is a front isometric view of the holster 1 in use, capturing the device 26 as in FIGS. 9 and 10, wherein the holster is suspended from a vertical object 50. FIG. 12 is a rear isometric view of FIG. 11. Strap 4 is wrapped around vertical object 50 and fastened to itself, generally the same as in FIGS. 3-8, except that instead of the tightened and fastened strap 4 clasping the device 26 to the front of the main body 2, the tightened and fastened strap 4 clasps the holster to the object 50 (with the object 50 against the rear surface of the main body). The vertical object 50 may be a railing, sign post, fence post, small-diameter tree-trunk, or other vertically-erect object of such a diameter (for example, 0.5-2 inches in diameter) that the leading end (distal end) of the strap 4 can be rotated circularly around the object 50 and securely attached by the patch of hook fastener material 8 connecting to patch 13.

The depictions in the Figures illustrate some of the many ways of suspending the holster and a captured device 26. Straps 4 and 6 being transverse or generally transverse to each other provides several options for both electronic device capture and also suspension from objects. Suction cup 14 and loops 16 and 18 provide several options for suspension from objects. It may be noted that the elasticity of strap 4 provides several options in orientation, use and function, because fastening of patch 8 to patch 13 may be done in all of FIGS. 3-8 (capturing the device 26), FIGS. 9 and 10 (not being used but still fastened to hold it neatly in place), and FIGS. 11 and 12 (capturing vertical member 50), without a very different position or appearance of strap position. It may be noted that strap 6 being capable of extending in multiple directions (forward and upward, and rearward around an end of the main body 2 and upward) provides several options in orientation, use and function.

General Descriptions of Preferred Features of Certain Embodiments:

The electronic device holster may be conveniently made from conventional materials by conventional techniques. Preferably, the double layer strap 2, elastic retention straps (4, 6), cording loops (16, 18), and hook/loop fasteners (8, 10, 10′, 13, 15, 20) are of good quality to obtain the desired effect, all existing materials being readily available through traditional sourcing methods. The suction cup 14 with side pilot hole may be of the conventional type which is readily available through a variety of sources, or a custom molded cup can be created providing the desired suction to effectively attach to smooth surfaces. The current preferred suction cup is 1.5″ to 2″ inches in diameter. The suction cup may be of a different style and size compared to those shown in the drawings, for example, different diameters and/or different systems for attaching the cup to the cording and/or main body of the holster. Alternatively, the strap/cording making up the holster body and other members of the invention may be of other types of materials compared to those shown in the drawings. For example, the materials could be of leather, rubber, specialty elastics, and/or specialty materials for specific devices or economy reasons. Also, the number of suction cups could be increased and/or the cup(s) could be placed differently in certain embodiments to accommodate specialty electronic devices; hence, it may be said that “at least one” suction cup, or “one or more” suction cups may be used.

While it is preferred that two elastic retention straps are provided, some less-preferred embodiments may use a single elastic strap at the front of the main body, that strap being optionally oriented either vertically or horizontally to create a capturing loop that extends vertically around an electronic device, or a capturing loop that extends horizontally around an electronic device.

Additionally, while the preferred holster contains two cording loops sewn into/captured by the main body of the holster at each end, some less-preferred embodiments may only use a single cording loop at the top, rather than a loop at both ends, or no cording loops may be used if there are other means provided such as other fasteners, tabs, grommets, hooks or other attachments for a hook and/or suction cup. Therefore, it may be said that certain embodiments of the holster comprise at least one elastic strap/capturing-loop for securing said electronic device in the holster, and it may be said that certain embodiments of the holster comprise at least one cording loop sewn to the main body which could then be used as an open loop for part of a hooking mechanism/method, or alternatively as an attachment/fastener for a suction cup.

The preferred holster described herein provides a unique combination of attachment options while using an electronic device in either portrait or landscape orientation, those being suction cup to smooth surfaces, strapping to a vertically-aligned object, strapping to a horizontally- aligned object, or flipping the holster 180 degrees and hanging the cording loop on a hook or protruding piece of stationary structure. This unique combination of options is accomplished in certain embodiments at least in part because the design features and specific dimensions and physical characteristics of the apparatus. There is some leeway in where the elastic retention straps are sewn into place on the main body, the size of the cording loops, and some variation in the overall length of the main body; even with this leeway and variation, the holster will still be able to generally secure an electronic device and allow the holster to be attached to a variety of surfaces and objects. Preferably, the longer of the two device-capturing straps (the transverse strap) is sewn into place on the top half of the main body of the holster, while the shorter device-capturing straps (the longitudinal strap) is preferably sewn somewhere below the centerline on the lower half of the main body. Also, adaptations may be made in certain embodiments in the overall lengths of the elastic straps 4 and 6 to allow adjustment for various sizes of electronic devices.

From this description and the drawings, one may understand that the electronic device may be easily placed on the main body and securely retained within the holster to achieve the desired orientation for taking hands-free pictures or recording video. Thus, the holster is a convenient and economical apparatus for suspending an electronic device from a smooth vertical surface, vertical object, horizontal object, or hooking mechanism, or other object. It is especially beneficial for those taking pictures and video with a smartphone, or some other type of electronic device with photo and video capabilities whereby the holster enhances the quality of the photo or video that is captured with said device. It may be noted that modern shutter features make the holster especially beneficial. For example, some shutter features will “snap” the shutter only when the subject(s) have generally stopped motion; this allows the holster user to walk from the suspended holster and device, to join a group or take a desirable position, before the camera will take the picture. Or, a timer may be used, as in a more-traditional shutter-delay feature.

The device-capturing straps/loops may be textiles, woven or braided material, polymeric or rubber materials, or other preferably flexible and elastic material, but, most preferably, they are materials having elasticity and the capacity to maintain their integrity through conventional sewing techniques. The preferred materials are not permanently deformed from normal stretching, but return to their original shape once the stretching stress (tension) is removed. Typically, fabrics having these qualities are not translucent. Non-limiting examples of materials that can be used include synthetic rubbers such as neoprene (polychloroprene); petrochemical based or other synthetically manufactured fibrous materials such as spandex (elastane), nylon, olefin fiber, polyester fabric, rayon, and particularly combinations and blends of the noted materials with each other and with other animal, plant, mineral or synthetic based textile such as cotton. In one aspect, the flexible and elastic fabric material can include a blend including neoprene and spandex.

As used herein, the term “tightly” refers to a fit including direct physical contact between at least a majority of surfaces sufficient to create a resistance to displacement due to the frictional forces caused by said direct physical contact of the surfaces. For proper use of the strap, the degree of friction maintaining placement of an electronic device in an associated strap is sufficient to reliably counteract gravity, but is preferably relatively easy to overcome by purposeful user manipulation (as with inserting and removing the electronics device).

As used herein, directional-based descriptive terms, such as “front,” “back,” “side,” “top,” “bottom,” and the like are used for ease of discussion. Such use is not to be interpreted as requiring use only in such direction or orientation, but only that these directional descriptors help the writer to describe elements of the embodiments relative to each other, and to describe the elements relative to example (but not necessarily all) electronic devices, in this Description and/or the Claims.

As used herein, the terms portrait and landscape refer to the page orientation of the camera/device as being vertical or horizontal. Page orientation is the way in which a rectangular page, or photograph, is oriented for normal viewing, in this case referenced as a vertical orientation of a rectangular shaped device. The two most common types of orientation are portrait and landscape. The specific word definition comes from the fact that a close-up portrait of a person's face and upper body is more fitting for a canvas or photo where the height of the display area is greater than the width. Landscape originally described artistic outdoor scenes where a wide view area is needed, but the upper part of the photo would be mostly sky and so is omitted. In this case, landscape is referred to as a horizontal orientation of a rectangular shaped electronic device (long dimension of the device being horizontal). Additionally, portrait is referred to as a vertical orientation of a rectangular shaped electronic device (long dimension of the device being vertical).

Certain embodiments include apparatus described herein and certain embodiments include methods of using the apparatus. Certain embodiments may be described as a holster for an electronic device, the holster comprising, consisting essentially of, or consisting of: a main body having a first end and a second end, and a longitudinal axis between said first end and said second end, and a width transverse to the longitudinal axis; a transverse strap having a proximal end connected to the main body and an opposing distal end, the transverse strap extending from the main body in a direction generally perpendicular to the longitudinal axis of the main body, the transverse strap being adapted in length to wrap around the width of the main body at least once, and the distal end being adapted to removably fasten to a portion of the transverse strap between the proximal end and the distal end for wrapping around an electronic device to capture the electronic device in the holster; a longitudinal strap having a proximal end connected to the main body and an opposing distal end, the longitudinal strap extending from the main body in a direction generally parallel to the longitudinal axis of the main body, and the distal end adapted to removably fasten to a rear side of the main body to define a space between the longitudinal strap and the main body for capturing an electronic device in the holster; and a suspension mechanism connected to the main body, for suspending the holster from an object or surface. The suspension mechanism may be selected from the group consisting of one or more suction cups, one or more loops, and one or more hooks, for example. The transverse strap and the longitudinal strap may both be elastic, preferably at least in the direction of the strap length. The suspension mechanism may include both a suction cup and a loop at opposite ends of the main body. The main body may be formed of material folded at said first end and said second end, so that the main body comprises two layers at said first end and said second end, and said loop is received between said two layers at one of the first end or the second end. The distal end of the transverse strap and said portion (of the transverse strap between the proximal end and the distal end) may each comprise cooperating hook-and-loop fastener for said removable fastening of the distal end to said portion. A rear side of the distal end of the longitudinal strap and the rear side of the main body may each comprise cooperating hook-and-loop fastener for said removable fastening of the distal end of the longitudinal strap to said rear side of the main body. A flap (or other protruding portion of the transverse strap) may extend generally perpendicularly from the transverse strap (or “from the main portion of the transverse strap”) and comprises hook-and-loop fastener, and wherein a front side of the distal end of the longitudinal strap comprises a hook-and-loop fastener for removable fastening of the distal end of the longitudinal strap to said flap. The longitudinal strap distal end may removably fasten to the flap at the same time the transverse strap is wrapped around the width of the main body and removably fastens to said portion of the transverse strap. For example, the flap and said portion of the transverse strap (that the longitudinal strap fastens to), may be directly adjacent to each other (the flap typically directly below said portion), and may be portions of a single mini-sized strap (12) connected to the transverse strap and extending perpendicular to the transverse strap. The strap 12 may comprise, therefore, an upper patch of fastener 13 and a lower patch of fastener 15, which may make the upper portion and the lower portion of strap 12 somewhat rigid, but it is desirable that strap 12 may easily bend between patch 13 and patch 15 (see FIGS. 5-12, wherein strap 12 bends 180 degrees to tuck flap 12′ up and behind the rest of transverse strap 4). A front side and a back side of the distal end of the longitudinal strap may each comprise hook-and-loop fastener for removable fastening of the longitudinal strap to multiple locations on the holster. Certain of these embodiments are unique at least in part because they are flexible, for example, the main body being generally flexible, and the electronic device retention straps (such as 4, 6) are substantially or entirely flexible. Certain embodiments do not include a bi-pod or tri-pod, or rigid legs. Certain embodiments do not include a pocket, for receiving the electronic device/cell-phone that is open at the top and closed at the bottom. Certain embodiments do not include suction cups suctioned directly to the electronic device/cell-phone. Certain embodiments do not include jointed rigid arms. Certain embodiments do not include the holster setting on or attaching to a horizontal surface, for example a table or desk.

Alternatively, one may described certain embodiments as an electronic device holster comprising, consisting essentially of, or consisting of: a generally flat main body having a top end and a bottom end, a front side and a rear side, and a longitudinal axis between said top and said bottom end; a first strap for electronic device retention, wherein said first strap extends generally horizontally from the main body; a second strap for electronic device retention having a proximal end attached to a central region of the main body, the second strap extending unattached from the main body generally vertically downwards from the main body past the bottom end of said main body; wherein the first and second straps each comprise a distal end having hook-and-loop fastener, the main body comprises a hook-and-loop fastener on the rear side, and the first strap comprises hook-and-loop fastener at a location part way along the length of the first strap; wherein said first strap is elastic and wrapped around the electronic device, the first strap stretching to become tensioned circumferentially around the electronic device, so that said electronic device is secured to the holster. The holster may comprise loops of elastic cording, one at each of the top end and the bottom end of the main body, and wherein one of said loops is connected to a suction cup. The main body of the holster may comprise multiple layers, and each of the loops may be retained between said multiple layers, for example, be extending through a space created by the fabric of the main body being folded to form the ends of the main body. For many current conventional electronic devices (especially, cell phones and smart phones with camera/video capability) the main body is 1.5-3 inches wide and about 5-6 inches long, the first strap is about 1-2 inches wide and about 7-9 inches long, and the second strap is about 1-2 inches wide and about 4.5-6 inches long. The main body may be made by various methods in certain embodiments, but a preferred method is to form it from an elongated piece of material with two ends and a central region, wherein the two ends are folded toward and sewn to the central region, and wherein said folding forms two folds that are said top end and said bottom end so that said top end and said bottom end comprise two layers of said piece of material with a fold space between said two layers. The fold spaces provide locations for various suspension mechanisms to be installed/attached/anchored, for example, at least one loop of cording can extend through at least one of the fold spaces for hanging on a hook or for attachment to a suction cup or other fastening device. The hook-and-loop fastener on the distal end of the first strap may removably fasten to said hook-and-loop fastener at a location part way along the length of the first strap, when the first strap is wrapped and tensioned around the electronic device. There may be multiple hook-and-loop fasteners along the length of the first strap, but preferably, one is at the distal end (as in patch 8), and patch 13 that is a short distance from the proximal end's attachment point to the main body. The second strap preferably comprises hook-and-loop fastener on both front and rear sides of the distal end of the second strap, so that the distal end of the second strap is adapted to fasten to both the rear side of the main body and to the hook-and-loop fastener at said location part way along the length of the first strap. Alternatively but less preferably, the second strap could removably fasten at its distal end to a cooperating hook-and-loop fastener (not shown) provided on the main body at or near the proximal end of the second strap; such placement might require that the second strap be fastened with the transverse strap stretched out of the way or otherwise moved to give room for this fastening of the second strap to the front of the main body. The first strap may comprise a depending flap comprising hook-and-loop fastener so that the distal end of the second strap is attachable to said depending flap that extends down below the main portion of the first strap, which alleviates the possible problem of the first strap being in the way of fastening the second strap at or near the front of the holster. Said first strap is wrapped 360-540 degrees around the main body, which means the first strap (connected to the main body at the back of the main body) typically wraps around to the front of the holster to be fastened. Alternatively, but less preferably, the first strap could be connected at different places on the main body, and therefore, wrap less than 360 degrees around the main body, and/or the first strap could fasten to the main body at the back of the holster after wrapping around the electronic device. Certain of these embodiments are unique at least in part because they are flexible, for example, the main body being generally flexible, and the electronic device retention straps (such as 4, 6) are substantially or entirely flexible. Certain embodiments do not include a bi-pod or tri-pod, or rigid legs. Certain embodiments do not include a pocket, for receiving the electronic device/cell-phone that is open at the top and closed at the bottom. Certain embodiments do not include suction cups suctioned directly to the electronic device/cell-phone. Certain embodiments do not include jointed rigid arms. Certain embodiments do not include the holster setting on or attaching to a horizontal surface, for example a table or desk.

Certain embodiments may be described as a method of securing an electronic device to surfaces and objects for hands-free photos and video, the method comprising, consisting essentially of, or consisting of: providing a holster having a generally rectangular main body, an elastic horizontal strap connected to the main body and comprising multiple hook-and-loop fasteners along the length of the horizontal strap, an elastic vertical strap connected to a front mid-region of said main body and comprising a rear hook-and-loop fastener on the rear side of the vertical strap, and a suction cup (and/or other mechanism such as one of the straps of the holster, an additional strap, a loop, a hook, a tie, a wire, a eyelet, string, cord, and/or a combination of these suspension mechanisms) connected to one end of the main body; placing an electronic device against the upper half of the main body, wrapping the horizontal elastic retention strap around the main body and the electronic device, and fastening a distal end of the horizontal strap to another portion of the horizontal strap by hook-and-loop fastening, whereby the horizontal strap is stretched and held around the electronic device to capture it against the main body; suspending the holster, and the electronic device captured therein, from a vertical surface by connecting the suction cup (and/or other mechanism such as one of the straps of the holster, an additional strap, a loop, a hook, a tie, a wire, a eyelet, string, cord, and/or a combination of these suspension mechanisms) to the vertical surface. Alternatively, certain embodiments may be described as a method of securing an electronic device to surfaces and objects for hands-free photos and video, the method comprising: providing a holster having a generally rectangular main body, an elastic horizontal strap connected to the main body and comprising multiple hook-and-loop fasteners along the length of the horizontal strap, an elastic vertical strap connected to a front mid-region of said main body and comprising a rear hook-and-loop fastener on the rear side of the vertical strap, and a suction cup (and/or other mechanism such as one of the straps of the holster, an additional strap, a loop, a hook, a tie, a wire, a eyelet, string, cord, and/or a combination of these suspension mechanisms) connected to one end of the main body; placing an electronic device against the lower half of the main body, wrapping the vertical strap around the electronic device and the lower end of the main body, and fastening a distal end of the vertical strap to a rear side of the main body by hook-and-loop fastening, whereby the vertical strap is stretched to capture the electronic device against the main body; suspending the holster, and the electronic device captured therein, from a vertical surface by connecting the suction cup (and/or other mechanism such as one of the straps of the holster, an additional strap, a loop, a hook, a tie, a wire, a eyelet, string, cord, and/or a combination of these suspension mechanisms) to the vertical surface. Thus, methods of securing an electronic device to surfaces and objects for hands free photos and video may be described as utilizing retention straps two (and preferably only two) multidirectional straps, one vertical, one horizontal. One or the other of the retention straps may be used to capture the electronic device, while the other strap is left available to be wrapped and securely strapped around an object, thereby suspending the holster (and said electronic device inside it) on said object. A suction cup may attach to a smooth surface in parallel to the plane of said main body, thereby allowing the holster and said device to be suctioned via vacuum connection to smooth clean surfaces thereby suspending the invention and said device on said surface/object. Cord/string/cable/strap loops at the lower end of main body and the top end of the body may allow the holster to be rotated 180 degrees, with any of said cord/string/cable/strap loops hung on a hooking mechanism, thereby suspending the holster and said device on said hook attached to said vertical surface. At least one of four preferred attachment options (suction cup, cord/string/cable/strap loops, and/or either the transverse elastic strap or the longitudinal elastic strap) accomplish said attachment, and at least one of the elastic retention straps (transverse or longitudinal) and hook and loop fasteners are employed to secure said electronic device inside the holster. Certain of these embodiments are unique at least in part because they are flexible, for example, the main body being generally flexible, and the electronic device retention straps (such as 4, 6) are substantially or entirely flexible. Certain embodiments do not include a bi-pod or tri-pod, or rigid legs. Certain embodiments do not include a pocket, for receiving the electronic device/cell-phone that is open at the top and closed at the bottom. Certain embodiments do not include suction cups suctioned directly to the electronic device/cell-phone. Certain embodiments do not include jointed rigid arms. Certain embodiments do not include the holster setting on or attaching to a horizontal surface, for example a table or desk.

Certain embodiments may be described as follows. A multi layer strap, suction-cup-enabled, holster apparatus permits attachment of an electronic device to vertical surfaces, or objects, while providing secure retention of the device during use. The main body generally includes a sewn double layer of 2″ elastic strap which includes two sewn on 1.5″ elastic straps, one extending horizontal, the other vertically toward the lower end of the apparatus. Preferably the two straps have patches of hook and loop fasteners approximately 1.5″ to 2″ long on the leading end, with corresponding fastener attached either on the main body, or the strap itself. The body additionally contains two sewn-in-place elastic cording loops at each end, one remains open, the other serves as an attachment location for a suction cup with side pilot hole. The suction cup is preferably 1.5″ to 2″ in diameter, with side pilot hole that is preferably ⅛″ to ¼″ in diameter. To use either of the straps, the leading end is wrapped securely around the device and then attached to the opposing hook/loop fastener. The suction cup is thereafter attached to a smooth surface to remain secured in place during use allowing the camera on the said electronic device to be exposed to for use, such as picture taking, or video recording. There are alternatives to the suction cup attachment, utilizing one of the elastic retention straps to attach around an object, or flipping the apparatus by 180 degrees and attaching the open cording loop to a hook mechanism. Certain of these embodiments are unique at least in part because they are flexible, for example, the main body being generally flexible, and the electronic device retention straps (such as 4, 6) are substantially or entirely flexible. Certain embodiments do not include a bi-pod or tri-pod, or rigid legs. Certain embodiments do not include a pocket, for receiving the electronic device/cell-phone that is open at the top and closed at the bottom. Certain embodiments do not include suction cups suctioned directly to the electronic device/cell-phone. Certain embodiments do not include jointed rigid arms. Certain embodiments do not include the holster setting on or attaching to a horizontal surface, for example a table or desk.

Although this invention has been described above with reference to particular means, materials and embodiments, it is to be understood that the invention is not limited to these disclosed particulars, but extends instead to all equivalents within the broad scope of the following claims. 

What is claimed is:
 1. A holster for an electronic device, the holster comprising: A main body having a first end and a second end, and a longitudinal axis between said first end and said second end, and a width transverse to the longitudinal axis; A transverse strap having a proximal end connected to the main body and an opposing distal end, the transverse strap extending from the main body in a direction generally perpendicular to the longitudinal axis of the main body, the transverse strap being adapted in length to wrap around the width of the main body at least once, and the distal end being adapted to removably fasten to a portion of the transverse strap between the proximal end and the distal end for wrapping around an electronic device to capture the electronic device in the holster; A longitudinal strap having a proximal end connected to the main body and an opposing distal end, the longitudinal strap extending from the main body in a direction generally parallel to the longitudinal axis of the main body, and the distal end adapted to removably fasten to a rear side of the main body to define a space between the longitudinal strap and the main body for capturing an electronic device in the holster; A suspension mechanism connected to the main body, for suspending the holster from an object or surface.
 2. The holster as in claim 1, wherein the suspension mechanism is selected from the group consisting of one or more suction cups, one or more loops, and one or more hooks.
 3. The holster as in claim 1, wherein the transverse strap and the longitudinal strap are both elastic.
 4. The holster as in claim 1 wherein the suspension mechanism comprises both a suction cup and a loop at opposite ends of the main body.
 5. The holster as in claim 4, wherein the main body is formed of material folded at said first end and said second end, so that the main body comprises two layers at said first end and said second end, and said loop is received between said two layers at one of the first end or the second end.
 6. The holster as in claim 1, wherein the distal end of the transverse strap and said portion of the transverse strap between the proximal end and the distal end each comprise cooperating hook-and-loop fastener for said removable fastening of the distal end to said portion.
 7. The holster as in claim 1, wherein a rear side of the distal end of the longitudinal strap and the rear side of the main body each comprise cooperating hook-and-loop fastener for said removable fastening of the distal end of the longitudinal strap to said rear side of the main body.
 8. The holster as in claim 1, wherein a flap extends generally perpendicularly from the transverse strap and comprises hook-and-loop fastener, and wherein a front side of the distal end of the longitudinal strap comprises a hook-and-loop fastener for removable fastening of the distal end of the longitudinal strap to said flap.
 9. The holster as in claim 8, wherein the longitudinal strap distal end removably fastens to the flap at the same time the transverse strap is wrapped around the width of the main body and is removably fastened to said portion of the transverse strap.
 10. The holster of claim 1, wherein a front side and a back side of the distal end of the longitudinal strap each comprise hook-and-loop fastener for removable fastening of the longitudinal strap to multiple locations on the holster.
 11. A cellular phone holster comprising: a) A generally flat main body having a top end and a bottom end, a front side and a rear side, and a longitudinal axis between said top and said bottom end; b) A first strap for cellular phone retention, wherein said first strap extends generally horizontally from the main body; c) A second strap for cellular phone retention having a proximal end attached to a central region of the main body, the second strap extending unattached from the main body generally vertically downwards from the main body past the bottom end of said main body; d) Wherein the first and second straps each comprise a distal end having hook-and-loop fastener, the main body comprises a hook-and-loop fastener on the rear side, and the first strap comprises hook-and-loop fastener at a location part way along the length of the first strap; e) Wherein said first strap is elastic and wrapped around the cellular phone, the first strap stretching to become tensioned circumferentially around the cellular phone, so that said cellular phone is secured to the holster.
 12. The holster of claim 11, further comprising loops of elastic cording, one at each of the top end and the bottom end of the main body, and wherein one of said loops is connected to a suction cup.
 13. The holster as in claim 12, wherein said main body comprises multiple layers, and each of the loops is retained between said multiple layers
 14. The holster of claim 11, wherein the main body is 1.5-3 inches wide and about 5-6 inches long, the first strap is about 1-2 inches wide and about 7-9 inches long, and the second strap is about 1-2 inches wide and about 4.5-6 inches long.
 15. The holster as in claim 11, wherein said main body is formed of an elongated piece of material with two ends and a central region, the two ends folded toward and sewn to the central region, said folding forming two folds that are said top end and said bottom end so that said top end and said bottom end comprise two layers of said piece of material with a fold space between said two layers, wherein the holster comprises at least one loop of cording extending through at least one of the fold spaces for hanging on a hook or for attachment to a suction cup or other fastening device.
 16. The holster as in claim 11, wherein the hook-and-loop fastener on the distal end of the first strap removably fastens to said hook-and-loop fastener at a location part way along the length of the first strap, when the first strap is wrapped and tensioned around the cellular phone.
 17. The holster as in claim 16, wherein the second strap comprises hook-and-loop fastener on both front and rear sides of the distal end of the second strap, so that the distal end of the second strap is adapted to fasten to both the rear side of the main body and to the hook-and-loop fastener at said location part way along the length of the first strap.
 18. The holster as in claim 17, wherein said first strap comprises a depending flap comprising hook-and-loop fastener so that the distal end of the second strap is attachable to said depending flap.
 19. The holster of claim 11, wherein said first strap is wrapped 360-540 degrees around the main body.
 20. A method of securing an electronic device to surfaces and objects for hands-free photos and video, the method comprising: a) Providing a holster having a generally rectangular main body, an elastic horizontal strap connected to the main body and comprising multiple hook-and-loop fasteners along the length of the horizontal strap, an elastic vertical strap connected to a front mid-region of said main body and comprising a rear hook-and-loop fastener on the rear side of the vertical strap, and a suspension mechanism selected from a group consisting of a suction cup, a strap, a loop, a hook, a tie, a wire, a eyelet, string, cord, and a combination of these suction mechanisms, connected to one end of the main body; b) Placing an electronic device in a first position against the upper half of the main body, wrapping the horizontal elastic retention strap around the main body and the electronic device, and fastening a distal end of the horizontal strap to another portion of the horizontal strap by hook-and-loop fastening, whereby the horizontal strap is stretched and held around the electronic device to capture it against the main body; c) Suspending the holster, and the electronic device captured therein, from a vertical surface by connecting the suspension mechanism to the vertical surface.
 21. A method as in claim 20, further comprising placing the electronic device in a second location in the holster by placing the electronic device against the lower half of the main body, wrapping the vertical strap around the electronic device and the lower end of the main body, and fastening a distal end of the vertical strap to a rear side of the main body by hook-and-loop fastening, whereby the vertical strap is stretched to capture the electronic device against the main body. 